/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include "SchWhichPairs.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; namespace chart::wrapper { SeriesOptionsItemConverter::SeriesOptionsItemConverter( const rtl::Reference<::chart::ChartModel>& xChartModel , uno::Reference< uno::XComponentContext > xContext , const rtl::Reference< ::chart::DataSeries >& xDataSeries , SfxItemPool& rItemPool ) : ItemConverter( xDataSeries, rItemPool ) , m_xChartModel(xChartModel) , m_xCC(std::move(xContext)) , m_bAttachToMainAxis(true) , m_bSupportingOverlapAndGapWidthProperties(false) , m_bSupportingBarConnectors(false) , m_nBarOverlap(0) , m_nGapWidth(100) , m_bConnectBars(false) , m_bSupportingAxisSideBySide(false) , m_bGroupBarsPerAxis(true) , m_bSupportingStartingAngle(false) , m_nStartingAngle(90) , m_bClockwise(false) , m_nMissingValueTreatment(0) , m_bSupportingPlottingOfHiddenCells(false) , m_bIncludeHiddenCells(true) , m_bHideLegendEntry(false) { try { m_bAttachToMainAxis = DiagramHelper::isSeriesAttachedToMainAxis( xDataSeries ); rtl::Reference< Diagram > xDiagram( xChartModel->getFirstChartDiagram() ); rtl::Reference< ChartType > xChartType( xDiagram->getChartTypeOfSeries( xDataSeries ) ); m_xCooSys = DataSeriesHelper::getCoordinateSystemOfSeries( xDataSeries, xDiagram ); if( m_xCooSys.is() ) { rtl::Reference< Axis > xAxis = AxisHelper::getAxis( 1, 0, m_xCooSys ); chart2::ScaleData aScale( xAxis->getScaleData() ); m_bClockwise = (aScale.Orientation == chart2::AxisOrientation_REVERSE); } sal_Int32 nDimensionCount = xDiagram->getDimension(); m_bSupportingOverlapAndGapWidthProperties = ChartTypeHelper::isSupportingOverlapAndGapWidthProperties( xChartType, nDimensionCount ); if( m_bSupportingOverlapAndGapWidthProperties ) { sal_Int32 nAxisIndex = DataSeriesHelper::getAttachedAxisIndex(xDataSeries); uno::Sequence< sal_Int32 > aBarPositionSequence; if( xChartType.is() ) { if( xChartType->getPropertyValue( "OverlapSequence" ) >>= aBarPositionSequence ) { if( nAxisIndex >= 0 && nAxisIndex < aBarPositionSequence.getLength() ) m_nBarOverlap = aBarPositionSequence[nAxisIndex]; } if( xChartType->getPropertyValue( "GapwidthSequence" ) >>= aBarPositionSequence ) { if( nAxisIndex >= 0 && nAxisIndex < aBarPositionSequence.getLength() ) m_nGapWidth = aBarPositionSequence[nAxisIndex]; } } } m_bSupportingBarConnectors = ChartTypeHelper::isSupportingBarConnectors( xChartType, nDimensionCount ); if( m_bSupportingBarConnectors && xDiagram.is() ) { xDiagram->getPropertyValue( "ConnectBars" ) >>= m_bConnectBars; } m_bSupportingAxisSideBySide = ChartTypeHelper::isSupportingAxisSideBySide( xChartType, nDimensionCount ); if( m_bSupportingAxisSideBySide && xDiagram.is() ) { xDiagram->getPropertyValue( "GroupBarsPerAxis" ) >>= m_bGroupBarsPerAxis; } m_bSupportingStartingAngle = ChartTypeHelper::isSupportingStartingAngle( xChartType ); if( m_bSupportingStartingAngle ) { xDiagram->getPropertyValue( "StartingAngle" ) >>= m_nStartingAngle; } m_aSupportedMissingValueTreatments = ChartTypeHelper::getSupportedMissingValueTreatments( xChartType ); m_nMissingValueTreatment = xDiagram->getCorrectedMissingValueTreatment( xChartType ); uno::Reference< beans::XPropertySet > xProp( m_xChartModel->getDataProvider(), uno::UNO_QUERY ); if( xProp.is() ) { try { //test whether the data provider offers this property xProp->getPropertyValue( "IncludeHiddenCells" ); //if not exception is thrown the property is offered m_bSupportingPlottingOfHiddenCells = true; xDiagram->getPropertyValue( "IncludeHiddenCells" ) >>= m_bIncludeHiddenCells; } catch( const beans::UnknownPropertyException& ) { } } m_bHideLegendEntry = !xDataSeries->getPropertyValue("ShowLegendEntry").get(); } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } SeriesOptionsItemConverter::~SeriesOptionsItemConverter() { } const WhichRangesContainer& SeriesOptionsItemConverter::GetWhichPairs() const { // must span all used items! return nSeriesOptionsWhichPairs; } bool SeriesOptionsItemConverter::GetItemProperty( tWhichIdType /*nWhichId*/, tPropertyNameWithMemberId & /*rOutProperty*/ ) const { return false; } bool SeriesOptionsItemConverter::ApplySpecialItem( sal_uInt16 nWhichId, const SfxItemSet & rItemSet ) { bool bChanged = false; switch( nWhichId ) { case SCHATTR_AXIS: { sal_Int32 nItemValue = static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue(); bool bAttachToMainAxis = nItemValue == CHART_AXIS_PRIMARY_Y; if( bAttachToMainAxis != m_bAttachToMainAxis ) { //change model: rtl::Reference xDataSeries = dynamic_cast( GetPropertySet().get() ); bChanged = m_xChartModel->getFirstChartDiagram()->attachSeriesToAxis( bAttachToMainAxis, xDataSeries , m_xCC ); if( bChanged ) m_bAttachToMainAxis = bAttachToMainAxis; } } break; case SCHATTR_BAR_OVERLAP: case SCHATTR_BAR_GAPWIDTH: { if( m_bSupportingOverlapAndGapWidthProperties ) { sal_Int32& rBarPosition = ( nWhichId == SCHATTR_BAR_OVERLAP ) ? m_nBarOverlap : m_nGapWidth; rBarPosition = static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue(); OUString aPropName("GapwidthSequence" ); if( nWhichId == SCHATTR_BAR_OVERLAP ) aPropName = "OverlapSequence"; rtl::Reference< DataSeries > xDataSeries( dynamic_cast(GetPropertySet().get()) ); rtl::Reference< Diagram > xDiagram( m_xChartModel->getFirstChartDiagram() ); rtl::Reference< ChartType > xChartType( xDiagram->getChartTypeOfSeries( xDataSeries ) ); if( xChartType.is() ) { sal_Int32 nAxisIndex = DataSeriesHelper::getAttachedAxisIndex(xDataSeries); uno::Sequence< sal_Int32 > aBarPositionSequence; if( xChartType->getPropertyValue( aPropName ) >>= aBarPositionSequence ) { bool bGroupBarsPerAxis = rItemSet.Get( SCHATTR_GROUP_BARS_PER_AXIS ).GetValue(); if(!bGroupBarsPerAxis) { //set the same value for all axes for( auto & pos : asNonConstRange(aBarPositionSequence) ) pos = rBarPosition; } else if( nAxisIndex >= 0 && nAxisIndex < aBarPositionSequence.getLength() ) aBarPositionSequence.getArray()[nAxisIndex] = rBarPosition; xChartType->setPropertyValue( aPropName, uno::Any(aBarPositionSequence) ); bChanged = true; } } } } break; case SCHATTR_BAR_CONNECT: { m_bConnectBars = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); if( m_bSupportingBarConnectors ) { bool bOldConnectBars = false; rtl::Reference< Diagram > xDiagramProperties( m_xChartModel->getFirstChartDiagram() ); if( xDiagramProperties.is() && (xDiagramProperties->getPropertyValue( "ConnectBars" ) >>= bOldConnectBars) && bOldConnectBars != m_bConnectBars ) { xDiagramProperties->setPropertyValue( "ConnectBars" , uno::Any(m_bConnectBars) ); bChanged = true; } } } break; case SCHATTR_GROUP_BARS_PER_AXIS: { m_bGroupBarsPerAxis = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); if( m_bSupportingAxisSideBySide ) { bool bOldGroupBarsPerAxis = true; rtl::Reference< Diagram > xDiagramProperties( m_xChartModel->getFirstChartDiagram() ); if( xDiagramProperties.is() && (xDiagramProperties->getPropertyValue( "GroupBarsPerAxis" ) >>= bOldGroupBarsPerAxis) && bOldGroupBarsPerAxis != m_bGroupBarsPerAxis ) { xDiagramProperties->setPropertyValue( "GroupBarsPerAxis" , uno::Any(m_bGroupBarsPerAxis) ); bChanged = true; } } } break; case SCHATTR_STARTING_ANGLE: { if( m_bSupportingStartingAngle ) { m_nStartingAngle = static_cast< const SdrAngleItem & >( rItemSet.Get( nWhichId )).GetValue().get() / 100; rtl::Reference< Diagram > xDiagramProperties( m_xChartModel->getFirstChartDiagram() ); if( xDiagramProperties.is() ) { xDiagramProperties->setPropertyValue( "StartingAngle" , uno::Any(m_nStartingAngle) ); bChanged = true; } } } break; case SCHATTR_CLOCKWISE: { bool bClockwise = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); if( m_xCooSys.is() ) { rtl::Reference< Axis > xAxis = AxisHelper::getAxis( 1, 0, m_xCooSys ); if( xAxis.is() ) { chart2::ScaleData aScaleData( xAxis->getScaleData() ); aScaleData.Orientation = bClockwise ? chart2::AxisOrientation_REVERSE : chart2::AxisOrientation_MATHEMATICAL; xAxis->setScaleData( aScaleData ); bChanged = true; } } } break; case SCHATTR_MISSING_VALUE_TREATMENT: { if( m_aSupportedMissingValueTreatments.hasElements() ) { sal_Int32 nNew = static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue(); if( m_nMissingValueTreatment != nNew ) { try { rtl::Reference< Diagram > xDiagramProperties( m_xChartModel->getFirstChartDiagram() ); if( xDiagramProperties.is() ) { xDiagramProperties->setPropertyValue( "MissingValueTreatment" , uno::Any( nNew )); bChanged = true; } } catch( const uno::Exception& ) { TOOLS_WARN_EXCEPTION("chart2", "" ); } } } } break; case SCHATTR_INCLUDE_HIDDEN_CELLS: { if( m_bSupportingPlottingOfHiddenCells ) { bool bIncludeHiddenCells = static_cast(rItemSet.Get(nWhichId)).GetValue(); if (bIncludeHiddenCells != m_bIncludeHiddenCells) { if (m_xChartModel) bChanged = ChartModelHelper::setIncludeHiddenCells( bIncludeHiddenCells, *m_xChartModel ); } } } break; case SCHATTR_HIDE_LEGEND_ENTRY: { bool bHideLegendEntry = static_cast(rItemSet.Get(nWhichId)).GetValue(); if (bHideLegendEntry != m_bHideLegendEntry) { GetPropertySet()->setPropertyValue("ShowLegendEntry", css::uno::Any(!bHideLegendEntry)); } } break; } return bChanged; } void SeriesOptionsItemConverter::FillSpecialItem( sal_uInt16 nWhichId, SfxItemSet & rOutItemSet ) const { switch( nWhichId ) { case SCHATTR_AXIS: { sal_Int32 nItemValue = m_bAttachToMainAxis ? CHART_AXIS_PRIMARY_Y : CHART_AXIS_SECONDARY_Y; rOutItemSet.Put( SfxInt32Item(nWhichId,nItemValue ) ); break; } case SCHATTR_BAR_OVERLAP: { if( m_bSupportingOverlapAndGapWidthProperties ) rOutItemSet.Put( SfxInt32Item(nWhichId,m_nBarOverlap) ); break; } case SCHATTR_BAR_GAPWIDTH: { if( m_bSupportingOverlapAndGapWidthProperties ) rOutItemSet.Put( SfxInt32Item(nWhichId,m_nGapWidth) ); break; } case SCHATTR_BAR_CONNECT: { if( m_bSupportingBarConnectors ) rOutItemSet.Put( SfxBoolItem(nWhichId,m_bConnectBars)); break; } case SCHATTR_GROUP_BARS_PER_AXIS: { if( m_bSupportingAxisSideBySide ) rOutItemSet.Put( SfxBoolItem(nWhichId,m_bGroupBarsPerAxis) ); break; } case SCHATTR_AXIS_FOR_ALL_SERIES: { break; } case SCHATTR_STARTING_ANGLE: { if( m_bSupportingStartingAngle ) rOutItemSet.Put( SdrAngleItem(SCHATTR_STARTING_ANGLE, Degree100(m_nStartingAngle*100)) ); break; } case SCHATTR_CLOCKWISE: { rOutItemSet.Put( SfxBoolItem(nWhichId,m_bClockwise) ); break; } case SCHATTR_MISSING_VALUE_TREATMENT: { if( m_aSupportedMissingValueTreatments.hasElements() ) rOutItemSet.Put( SfxInt32Item( nWhichId, m_nMissingValueTreatment )); break; } case SCHATTR_AVAILABLE_MISSING_VALUE_TREATMENTS: { rOutItemSet.Put( SfxIntegerListItem( nWhichId, m_aSupportedMissingValueTreatments ) ); break; } case SCHATTR_INCLUDE_HIDDEN_CELLS: { if( m_bSupportingPlottingOfHiddenCells ) rOutItemSet.Put( SfxBoolItem(nWhichId, m_bIncludeHiddenCells) ); break; } case SCHATTR_HIDE_LEGEND_ENTRY: { rOutItemSet.Put(SfxBoolItem(nWhichId, m_bHideLegendEntry)); break; } default: break; } } } // namespace chart /* vim:set shiftwidth=4 softtabstop=4 expandtab: */